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  • 1
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    Erdwärmegewinnung mittels Generierter geothermischer Systeme (GeneSys). 1. Testarbeiten in der Bohrung Horstberg Z1 und Abteufen der Bohrung Groß Buchholz Gt1 (2015-)
    Stuttgart : E. Schweizerbart'sche
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    Call number: S 90.0066(162,1)
    In: Geologisches Jahrbuch / A
    Type of Medium: Series available for loan
    Pages: 261 Seiten , Ill., 1 DVD-ROM (12 cm) und 1 Tafel-Beil. ([2] S.)
    ISBN: 9783510968534
    Series Statement: Geologisches Jahrbuch 162
    URL: Inhaltstext
    Classification:
    Engineering Geophysics
    Language: German
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  • 2
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    Traffic regulation recognition from GPS data (2023)
    Hannover : Leibniz Universität Hannover
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    Call number: S 99.0139(384)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 384
    Description / Table of Contents: This dissertation shows the importance of using low-cost crowd-sourced information for the task of traffic regulator recognition (traffic signals, stop signs, priority signs, uncontrolled intersections), the cost of which in terms of time and money is much higher if standard technology is used for surveying. GPS trajectories can reveal the movement patterns of traffic participants, and the initial hypothesis that traffic regulations can be retrieved by mining the movement patterns imposed by traffic rules is verified. The predictive ability of the classifier becomes more accurate when static information derived from open maps (OSM) is merged with dynamic features extracted from GPS trajectories. An extensive evaluation of the proposed methodology on three datasets, provided classification accuracy between 95% and 97%.
    Type of Medium: Series available for loan
    Pages: ix, 178 Seiten , Illustrationen, Diagramme, Karte
    ISBN: 978-3-7696-5310-6 , 9783769653106
    ISSN: 0174-1454
    Series Statement: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover Nr. 384
    Language: English
    Note: Dissertation, Gottfried Wilhelm Leibniz Universität Hannover, 2023 , Contents 1. Introduction 1.1. From GPS tracks to Traffic Regulations 1.2. Motivation for Learning Intersection Traffic Regulations 1.3. Research Gap 1.4. Motivation for Learning Traffic Regulations from GPS Data 1.5. Research Objectives, Challenges and Contributions 1.6. Outline of the Thesis 1.7. Summary 1.8. Acknowledgements 2. Theoretical Background 2.1. Intersections and Intersection Traffic Regulations 2.1.1. Intersections 2.1.2. Intersection Traffic Regulations 2.2. Spatiotemporal Data and Movement Trajectories 2.2.1. The Global Positioning System 2.2.2. Sampling Frequency 2.2.3. The GPS Exchange Format: GPX 2.2.4. Movement Patterns in Spatiotemporal Data 2.2.5. Spatiotemporal Data Mining 2.2.6. Semantic Enrichment of Trajectories 2.2.7. Detecting Stop and Moves: the CB-SMoT Algorithm 2.3. Machine Learning 2.3.1. Machine Learning and Types of Learning 2.3.2. Supervised-Learning: Classification 2.3.3. Unsupervised-Learning: Clustering 2.3.4. Semi-supervised Learning 2.3.5. Active-Learning 2.3.6. Incremental Learning 2.4. Acknowledgements 3. Related Work 3.1. Existing Traffic Regulation Recognition Approaches 3.2. Static Categorization 3.2.1. Map-based Category 3.2.2. Image-based Category 3.3. Dynamic Categorization 3.3.1. Episode-based Category 3.3.2. Speed-profile Category 3.3.3. Movement-summarization Category 3.4. Hybrid-based Categorization 3.5. Discussion 3.6. Knowledge Gap 3.7. Acknowledgements 4. Traffic Regulation Recognition (TRR) from GPS Data 4.1. Introduction 4.2. Datasets 4.2.1. Dataset Requirements and Limitations 4.2.2. Datasets for Testing the Proposed Methods 4.2.3. Groundtruth Map Construction 4.3. Methodology 4.3.1. Detection of Stop and Deceleration Episodes 4.3.2. The Static Approach 4.3.3. The c-Dynamic Approach 4.3.4. The Dynamic Approach 4.3.5. The Hybrid Approach 4.3.6. Implementation and Classification Settings 4.4. Results 4.5. Discussion 4.6. Summary 4.7. Acknowledgements 5. TRR From GPS Data: One-Arm versus All-Arm Models 5.1. Introduction 5.2. Methodology 5.2.1. One-Arm vs. All-Arm Models 5.2.2. The Effect of Sampling Rate 5.2.3. Reduced Models 5.2.4. The Effect of Turning/No-Turning Trajectories 5.2.5. The Effect of Number of Trajectories 5.2.6. Application of Domain Knowledge Rules 5.2.7. Classification Settings 5.3. Results 5.3.1. One-arm vs. All-arm Models 5.3.2. Testing the Effect of Sampling Rate 5.3.3. Reduced Models 5.3.4. Testing the Effect of Turning Trajectories and Examining an Optimal Number of Trajectories 5.3.5. Testing the Effect of the Number of Trajectories on Classification Performance 5.3.6. Misclassification Analysis 5.3.7. Applying Domain Knowledge Rules 5.4. Discussion 5.5. Summary 5.6. Acknowledgements 6. TRR with Sparsely Labeled and Stream Data 6.1. Introduction 6.2. TRR with Clustering 6.3. TRR with Self-Training, Active Learning and Cluster-then-Label 6.3.1. TRR with Self-Training: Using Labeled and Unlabeled Data 6.3.2. TRR with Active Learning 6.3.3. TRR with the Cluster-then-Label Algorithm 6.3.4. Comparison of All Tested Methods 6.4. Learning Transferability: Training on City A and Predicting on City B 6.5. Incremental (Online) Learning 6.6. Summary 7. Conclusions and Outlook 7.1. Research Questions Addressed in this Thesis 7.2. Outlook List of Acronyms Index A. Appendix List of Figures List of Tables Bibliography Curriculum Vitae Acknowledgements , Sprache der Kurzfassungen: Englisch, Deutsch
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  • 3
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    Hochgenaue 3D-Erfassung von Großstrukturen durch kinematisches terrestrisches Laserscanning (2023)
    Hannover : Leibniz Universität Hannover
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    Call number: S 99.0139(388)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 388
    Type of Medium: Series available for loan
    Pages: v, 188 Seiten , Illustrationen, Diagramme
    ISSN: 0174-1454
    Series Statement: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover Nr. 388
    Language: German
    Note: Dissertation, Gottfried Wilhelm Leibniz Universität Hannover, 2023 , Inhaltsverzeichnis 1 Einleitung 1.1 Motivation 1.2 Zielsetzung und eigene Beiträge 1.3 Gliederung der Arbeit 2 3D-Objekterfassung in der industriellen Fertigung von Großstrukturen 2.1 Bedingungen und Anforderungen in der industriellen Fertigung 2.2 Grundlagen zu Qualitätsmaßen und -parametern 2.3 Überblick Methoden der 3D-Objekterfassung 2.4 Terrestrisches Laserscanning 2.4.1 Messprinzip und Sensorik 2.4.2 Sensorkalibrierung 2.4.3 Messunsicherheiten 2.5 Statisches terrestrisches Laserscanning und Lasertracking 2.5.1 Vorbereitung und Objektaufnahme 2.5.2 Datenprozessierung 2.5.3 Validierung und Qualitätssicherung 2.5.4 Tachymeter und Lastertracker mit Scanfunktion 2.5.5 Stopp-und-Go Verfahren 2.5.6 Resümee zum statischen Laserscanning 2.6 Kinematisches terrestrisches Laserscanning 2.6.1 Messprinzip und Stand der Entwicklungen 2.6.2 Arten der Georeferenzierung 2.6.3 Resümee zum Einsatz des kinematischen terrestrischen Laserscanning 2.7 Hochgenaues kinematisches terrestrisches Laserscanning im industriellen Umfeld 2.7.1 TLS-basierte 3D-Objekterfassung 2.7.2 Systemkalibrierung und Synchronisierung der Sensoren 2.7.3 Georeferenzierung der Plattform 2.7.4 Darstellung des k-TLS-basierten Multi-Sensor-System 3 Mathematische Grundlagen 3.1 Räumliche Helmert-Transformation 3.2 Methoden der Unsicherheits-Modellierung 3.2.1 Statistische Grundlagen 3.2.2 Darstellung nach dem Guide to the Expression of Uncertainty in Measurement 3.2.3 Methoden der Unsicherheitsfortpflanzung 3.2.3.1 Varianzfortpflanzung 3.2.3.2 Monte-Carlo-Simulation 3.3 Parameterschätzung im Gauß-Helmert-Modell 3.4 Räumliche Bestimmung der Form und Lage von Objekten 3.4.1 Ausgleichungsmodell 3.4.2 Klassifizierung 3.4.3 Ausgleichende Ebene 3.4.4 Flächen zweiten Grades 3.5 Filterung 3.5.1 Das Kalmanfilter 3.5.2 Das Extended Kalmanfilter 3.5.3 Das iterative Extended Kalmanfilter 4 Systemkalibrierung 4.1 Strategien und Ansätze 4.2 Darstellung des Referenzgeometrie-basierten Ansatzes 4.2.1 Schaffung Kalibrierumgebung - Bestimmung der Referenzgeometrien 4.2.2 Objekterfassung und Verknüpfung der Koordinatensysteme 4.2.3 Ausgleichung der gesuchten Parameter 4.3 Anordnung der Referenzgeometrien 4.3.1 Sensitivität der Parameter 4.3.2 Theoretische Vorbetrachtungen 4.3.3 Implementierung einer Simulationsumgebung 4.3.4 Optimierung der Referenzgeometrieanordnung 4.4 Praktische Realisierung und Durchführung 4.4.1 Realisierung einer Kalibrierumgebung 4.4.2 Durchführung der Systemkalibrierung 4.4.3 Darstellung und Diskussion der Ergebnisse 5 Georeferenzierung der mobilen Plattform 5.1 Strategien und Ansätze 5.2 Messtechnischer Ablauf 5.2.1 Methode einer punktweisen Georeferenzierung 5.3 Filtermodell 5.3.1 Vorbetrachtungen und Modellwahl 5.3.2 Implementierung 5.4 Messprozess und Datenauswertung 5.4.1 Messtechnische Umsetzung 5.4.2 Darstellung und Interpretation der Ergebnisse 5.5 Zusammenfassung und Resümee 6 Validierung und Qualitätssicherung 6.1 Strategien und Ansätze 6.2 Genauigkeitsuntersuchungen der Lasertrackermessung zur T-Probe 6.2.1 Messstrategie und Auswertung 6.2.2 Ergebnisse 6.2.3 Fazit 6.3 Betrachtung der Unsicherheiten der Einzelschritte 6.3.1 Objekterfassung durch den Laserscanner 6.3.2 Systemkalibrierung zwischen T-Probe und Laserscanner 6.3.3 Georeferenzierung der mobilen Plattform 6.3.4 Zusammenstellung der Unsicherheiten für die Einzelschritte 6.4 Modellierung der Gesamtunsicherheit 6.4.1 Umsetzung der Vorwärtsmodellierung 6.4.2 Darstellung der Ergebnisse 6.4.3 Korrelationen 6.5 Validierung der Modellierungsergebnisse 6.5.1 Rückwärtsmodellierung 6.5.2 Bewertung der Ergebnisse 7 Zusammenfassung und Ausblick A Anhang A.1 Kapitel 2 A.2 Kapitel 4 A.3 Kapitel 5 A.4 Kapitel 6 Literaturverzeichnis Abbildungsverzeichnis Tabellenverzeichnis Lebenslauf , Sprache der Kurzfassungen: Englisch, Deutsch
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  • 4
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    Der Geologische Landesdienst Thüringen : Sonderband zur Festveranstaltung 100 Jahre (2023)
    Jena : Thüringer Landesamt für Umwelt, Bergbau und Natuschutz (TLUBN)
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    Call number: S 94.0499(16)
    In: Geowissenschaftliche Mitteilungen von Thüringen
    Type of Medium: Series available for loan
    Pages: 94 Seiten , Illustrationen, Karten
    Edition: Stand: September 2023
    Series Statement: Geowissenschaftliche Mitteilungen von Thüringen Band 16
    Language: German
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  • 5
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    Wasser in Gebirgsräumen - disaster risk management : Transdisziplinäre Studien aus Österreich (2023)
    Wien
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    Call number: S 91.1179(77)
    In: Abhandlungen
    Type of Medium: Series available for loan
    Pages: 192 Seiten , Illustrationen, Diagramme, Karten
    ISBN: 9783903252158
    Series Statement: Abhandlungen / GeoSphere Austria 77 (2023)
    Language: German , English
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  • 6
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    Characterizing slope instability kinematics by integrating multi-sensor satellite remote sensing observations (2023)
    Hannover : Leibniz Universität Hannover
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    Call number: S 99.0139(389)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 389
    Type of Medium: Series available for loan
    Pages: xvii, 137 Seiten , Illustrationen, Diagramme, Karten
    ISBN: 978-3-7696-5319-9 , 9783769653199
    ISSN: 0174-1454
    Series Statement: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover Nr. 389
    Language: English
    Note: Dissertation, Gottfried Wilhelm Leibniz Universität Hannover, 2023 , Contents List of Abbreviations xv 1 Introduction 1.1 Research Objectives 1.2 Outline and Structure of Thesis 2 Theoretical Background 2.1 Introduction 2.2 Glance at Landslide Hazards 2.2.1 Overview 2.2.2 Landslide Types 2.2.2.1 Type of Movement 2.2.2.2 Material Classification 2.2.2.3 Landslide Depth 2.2.3 Landslide Distribution 2.2.4 Landslide Implications and Measurements 2.2.5 Slow-moving Landslide 2.3 Landslide Remote Sensing 2.3.1 Overview 2.3.2 Airborne Remote Sensing 2.3.3 Spaceborne Remote Sensing 2.4 Spaceborne Optical Imagery 2.4.1 Overview 2.4.2 Pixel Offset Tracking (POT) 2.5 Spaceborne Radar Imagery 2.5.1 Synthetic Aperture Radar (SAR) Basic 2.5.1.1 SAR Geometry 2.5.1.2 SAR Acquisition Mode 2.5.1.3 SAR Distortion 2.5.1.4 SAR Mission 2.5.2 Interferometric SAR (InSAR) 2.5.2.1 Workflow of InSAR Processing 2.5.2.2 Coherence and Decorrelation 2.5.2.3 Topographic and Orbital Errors 2.5.2.4 Atmospheric Artifacts 2.5.2.5 Sensitivity of Line-of-sight (LOS) to Slope Motion 2.5.3 Advanced Multi-temporal InSAR (MT-InSAR) 2.5.3.1 Scattering Mechanism 2.5.3.2 Interferogram Stacking 2.5.3.3 Persistent Scatterer Interferometry (PSI) 2.5.3.4 Small Baseline Subsets (SBAS) 2.5.4 Corner Reflector InSAR (CR-InSAR) 2.5.4.1 Overview 2.5.4.2 Conventional Designs 2.5.4.3 Our Experimental Designs 2.5.4.4 CR-InSAR Processing 3 Methodological Contribution 3.1 Challenges in Landslide Monitoring Using Spaceborne Remote Sensing 3.2 Proposed Methodology 3.2.1 Analytically-based Modeling for Inverse Velocity 3.2.2 Identification of Small-scale CR-like Objectives 3.2.3 Modeling 4D Slope Instability Dynamics 4 Pre- and Co-failure: Slope Instability Monitoring Using Spaceborne Remote Sensing 4.1 Abstract 4.2 Introduction 4.3 Environmental and Geomorphological Settings 4.4 Data and Methodology 4.4.1 Remote Sensing Optical Images 4.4.2 MT-InSAR Analysis Using Sentinel-1 SAR Data 4.4.3 Auxiliary Data 4.4.4 Inverse-velocity Theory for Anticipating the Time of Failure 4.5 Results 4.5.1 Horizontal Displacement Based on High-resolution Optical Images 4.5.2 MT-InSAR Analysis 4.5.3 Influence of Precipitation on the Kinematics of the Landslide 4.5.4 INV Results for Anticipating the Time of Failure 4.5.5 Comparison of NDVI and Coherence Values 4.6 Discussion 4.7 Conclusion 4.8 Acknowledgements 4.9 Supplementary Materials 4.9.1 Comparison of River Courses 4.9.2 Detailed Parameters of Exploited SAR Data 4.9.3 Comparison of Baseline Graphs 5 Post-failure: Slope Instability Monitoring Using Artificial Corner Reflectors 5.1 Abstract 5.2 Introduction 5.3 Experiments and Methodology 5.3.1 Experimental Design 5.3.2 Selection Strategy for CRs 5.3.3 Radar Cross-section (RCS) 5.3.4 Signal-to-clutter Ratio (SCR) 5.3.5 CR-InSAR Processing 5.4 Results and Discussion 5.5 Conclusion 5.6 Acknowledgments 5.7 Supplementary Materials 5.7.1 Calculation of SCR 5.7.2 Selection Strategy 5.7.3 Radar Intensity Map 5.7.4 Site Photo of Interference Reflector 6 Post-failure: Characterizing 4D Slope Instability Dynamics 6.1 Abstract 6.2 Introduction 6.3 Geographical Setting of the Study Area 6.4 Methodology 6.4.1 Optical Images Processing 6.4.2 Multi-temporal InSAR Processing 6.4.3 Spatiotemporal Independent Component Analysis (ICA) of Displacement 6.4.4 Multi-sensor Integration Modeling 6.5 Results 6.5.1 Horizontal Deformation Based on Planet Images 6.5.2 MT-InSAR Results 6.5.3 Feature Extraction Using ICA 6.5.4 4D Deformation Modeling 6.6 Discussion 6.6.1 Early Post-failure Deformation from Planet 6.6.2 Post-failure Kinematics from MT-InSAR 6.6.3 ICA-based Spatiotemporal Features of Deformation 6.6.4 Resolving 4D Post-failure Kinematics 6.7 Conclusion 6.8 Acknowledgments 7 Summary and Future Perspectives 7.1 Summary 7.2 Future Perspectives List of Figures List of Tables Bibliography , Sprache der Kurzfassungen: Englisch, Deutsch
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  • 7
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    Trilobiten aus dem Leun-Schiefer und Leun-Kalk von Löhnberg und Leun in der zentralen Lahn-Mulde in Hessen : (Grenzbereich Unter-/Mitteldevon, Rheinisches Massiv, Varisziden) (2023)
    Mainz : Naturhistorisches Museum / Landessammlung für Naturkunde Rheinland-Pfalz
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    Call number: S 93.1022(37)
    In: Mainzer naturwissenschaftliches Archiv, 37
    Type of Medium: Series available for loan
    Pages: 211 Seiten , Illustrationen, Karten
    ISSN: 0174-6626
    Series Statement: Mainzer naturwissenschaftliches Archiv : Beiheft 37
    Language: German
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  • 8
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    New concepts for gravity field recovery using satellites (2023)
    Hannover : Fachrichtung Geodäsie und Geoinformatik der Leibniz Unviersität Hannover
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    Call number: S 99.0139(391)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 391
    Description / Table of Contents: The Earth’s gravity field and its temporal variation reveal important information for many disciplines, especially for geosciences. Satellite gravity missions like GOCE, GRACE and GRACE-FO successfully recovered global gravity field models. But the temporal and spa- tial resolution of the gravity field solutions have to be improved in order to meet the user requirements. New concepts for future satellite missions to recover the global gravity field are investigated by means of comprehensive simulations. In terms of sensor behavior, ac- celerometers are one major limiting factor. Thus, this dissertation focuses on them. Cold Atom Interferometry (CAI) accelerometers are promising candidates for future missions due to their long-term stability.
    Type of Medium: Series available for loan
    Pages: vi, 161 Seiten , Illustrationen, Diagramme
    ISBN: 978-3-7696-5328-1 , 9783769653281
    ISSN: 0174-1454
    Series Statement: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover Nr. 391
    Language: English
    Note: Contents 1 Introduction 2 Satellite Gravity Missions 2.1 Fundamentals of Gravity Field Recovery with Satellites 2.1.1 Motion of a Satellite in Space 2.1.2 Representation of the Earth’s Gravity Field 2.1.3 Orbit Design of Satellite Gravity Missions 2.2 Previous Satellite Gravity Missions 2.2.1 Missions and Measurement Concepts 2.2.2 State-of-the-art Sensors 2.2.3 State-of-the-art Control Systems 2.2.4 State-of-the-art Accelerometer Calibration 2.3 Concepts for Future Satellite Gravity Missions 2.3.1 Challenges of Satellite Gravity Missions and Requirements for Future Satellite Missions 2.3.2 Developments in the Sensor Technology 2.3.3 Concepts for Orbit Design 3 Evaluation of Simulation Environment 3.1 Overview of the Simulation Environment 3.2 Modeling of Non-gravitational Forces 3.3 Modeling of the Sensor Behavior 3.3.1 Classical Electrostatic Accelerometer 3.3.2 Cold Atom Interferometry Accelerometer 3.3.3 Ranging Measurement Instruments 3.4 Modeling of Control System Behavior 3.4.1 Drag-free Control 3.4.2 Attitude Control 3.5 Time-variable Background Modeling Errors 3.6 Gravity Field Recovery 3.6.1 Least-squares Adjustment 3.6.2 Range Accelerations 3.6.3 Gradiometry 3.6.4 Combination of Range Accelerations and Gravity Gradients 3.7 Summary 4 Impact of New Measurement Concepts on Gravity Field Recovery 4.1 Selection of Simulation Scenarios 4.2 Drag Compensation Analysis 4.2.1 Drag Compensation Requirements due to Accelerometer Imperfections for ll-SST Missions 4.2.2 Drag Compensation Requirements for Gradiometry due to Accelerometer Imperfections 4.2.3 Saturation of the Accelerometer 4.2.4 Propellant Consumption 4.3 Cold Atom Interferometry Accelerometer Analysis 4.4 Gravity Field Solutions using Different Accelerometer Types for ll-SST Missions 4.5 Gravity Field Solutions using Different Accelerometer Types for Gradiometry Missions 4.6 Combined Gravity Field Solutions from ll-SST and Cross-track Gradiometry 4.7 Summary 5 Summary and Outlook A Appendix A.1 Reference Frames A.2 Satellite Reference Attitudes for Attitude Control A.3 Simulation results - Gravity Field Solutions for ll-SST Missions A.3.1 Instrument-only scenarios A.3.2 Scenarios including AOD and Ocean-tide Error A.4 Simulation results - Combined Gravity Field Solutions from ll-SST and Crosstrack Gradiometry Bibliography List of Figures List of Tables Acronyms Acknowledgments
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  • 9
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    Impact maps from bomb craters detected in aerial wartime images using marked point processes (2023)
    München : Bayerische Akademie der Wissenschaften
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    Call number: S 99.0139(383)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 383
    Type of Medium: Series available for loan
    Pages: 131 Seiten , Illustrationen
    ISBN: 9783769653076
    Series Statement: Veröffentlichungen / Deutsche Geodätische Kommission. Reihe C, Dissertationen, Elektronische Ressource Heft Nr. 895
    URL: Volltext  (kostenfrei)
    URL: Volltext  (kostenfrei)
    Language: English
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  • 10
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    GeoTop 2023 - Inwertsetzung der Geologie als Fundament der regionalen Entwicklung : 26. Internationale Jahrestagung GeoTop der Fachsektion Geotope & GeoParks der DGGV im Steirischen Vulkanland (Östereich) in Feldbach (2023)
    Stuttgart : Schweizerbart Science Publishers
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    Call number: S 00.0063(98)
    In: Schriftenreihe der Deutschen Gesellschaft für Geowissenschaften
    Type of Medium: Monograph available for loan
    Pages: 194 Seiten , Illustrationen
    ISBN: 9783510492930
    Series Statement: Schriftenreihe der Deutschen Gesellschaft für Geowissenschaften Heft 98
    Language: German
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  • 11
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    Standortsfaktor Wasserhaushalt im Klimawandel (WHH-KW) : Abschlussveröffentlichung zum Forschungsprojekt FKZ 22WK4141 Teilprojekte 01, 02, 03, 04 (2023)
    Freising : Zentrum Wald-Forst-Holz Weihenstephan
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    Call number: ZS-064(224)
    In: Forstliche Forschungsberichte München
    Type of Medium: Series available for loan
    Pages: 190 Seiten , Überwiegend farbige Illustrationen, graphische Darstellungen, Karten
    ISBN: 3933506557
    Series Statement: Forstliche Forschungsberichte München 224
    Language: German
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  • 12
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    Deep domain adaptation for the pixel-wise classification of aerial and satellite images (2023)
    Hannover : Leibniz Universität Hannover
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    Call number: S 99.0139(386)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 386
    Type of Medium: Series available for loan
    Pages: ix, 163 Seiten , Illustrationen, Diagramme, Karten
    ISBN: 978-3-7696-5313-7 , 9783769653137
    ISSN: 0174-1454
    Series Statement: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover Nr. 386
    Language: English
    Note: Dissertation, Gottfried Wilhelm Leibniz Universität Hannover, 2023 , Contents 1 Introduction 1.1 Motivation 1.2 Contributions and Scientific Goals of this Thesis 1.3 Thesis Outline 2 Basics 2.1 Machine Learning for Pixel-Wise Classification 2.2 Deep Neural Networks 2.2.1 Neuron and Multilayer Perceptron 2.2.2 Supervised Training of Neural Networks 2.2.2.1 Optimisation Strategies 2.2.3 Improving Model Generalization 2.2.4 Adversarial Training 2.3 Convolutional Neural Networks 2.3.1 Convolutional Layers 2.3.2 Pooling Layer 2.3.3 Batch Normalisation Layer 2.3.4 Activation Functions in CNNs 2.3.5 Parameter Initialisation 2.3.6 CNN Architectures 2.3.6.1 Residual Networks 2.3.6.2 Xception Network 2.4 Fully Convolutional Networks 2.4.1 Upsampling Layer and Transposed Convolutional Layer 2.4.2 Skip Connections 2.5 Appearance Adaptation 2.6 Transfer Learning and Domain Adaptation 2.6.1 Adaptive Batch Normalisation 3 Related Work 3.1 Instance Transfer 3.1.1 Explicit Instance Transfer 3.1.2 Implicit Instance Transfer 3.1.3 Hybrid Instance Transfer 3.1.4 Discussion 3.2 Representation Transfer 3.2.1 Non-adversarial Representation Transfer 3.2.2 Adversarial Representation Transfer 3.2.3 Discussion 3.3 Appearance Adaptation 3.3.1 Target-to-Source Appearance Adaptation 3.3.2 Source-to-Target Appearance Adaptation 3.3.3 Discussion 3.4 Hybrid Approaches 3.4.1 Discussion 3.5 Parameter Selection in Unsupervised Domain Adaptation 3.6 Discussion 3.6.1 Research Gap 3.6.2 Comparison to Most Similar Works 4 Methodology 4.1 Prerequisites and Assumptions 4.2 Adaptation Overview 4.3 Network Architecture 4.3.1 Classification Network C 4.3.2 Appearance Adaptation Network 4.3.3 Domain Discriminator 4.4 Training 4.4.1 Supervised Source Training 4.4.2 Joint Training for Appearance Adaptation 4.4.2.1 Joint Update of A and C 4.4.2.2 Update of D 4.5 Improving Semantic Consistency 4.5.1 Method 1: Reduction of Variability 4.5.2 Method 2: Auxiliary Generator 4.5.2.1 Architecture of G 4.5.2.2 Modifications of Adversarial Loss Terms 4.6 Entropy-based Parameter Selection 4.7 Adaptive Batch Normalization 4.8 Resolution Adaptation 5 Experimental Setup 5.1 Datasets 5.1.1 Data for Land-cover Classification using Aerial Imagery 5.1.2 Data for Bi-temporal Deforestation Detection using Satellite Imagery 5.2 Evaluation and Quality Metrics 5.3 Goals and Structure of Experiments 5.3.1 Experiment Set E1: Source Training and Na¨ıve Transfer 5.3.2 Experiment Set E2: Proposed Method for UDA 5.3.3 Experiment Set E3: Evaluation of Parameter Selection 5.3.4 Experiment Set E4: Comparison to other Strategies and Methods 5.3.4.1 Experiment Set E4.1: Comparison to other Strategies 5.3.4.2 Experiment set E4.2: Comparison to other Methods 5.3.5 Experiment set E5: Evaluation of UDA for Bi-temporal Deforestation Detection 5.4 Training Details and Hyper-parameters 5.4.1 Source Training 5.4.2 Unsupervised Domain Adaptation 5.4.3 Implementation Details of Baseline Strategies 6 Results and Discussion 6.1 Results of Experiment Set E1: Source Training and Na¨ıve Transfer 6.2 Results of Experiment Set E2: Proposed Method for UDA 6.2.1 Evaluation of Appearance Adaptation 6.2.2 Evaluation of Unsupervised Domain Adaptation 6.2.3 Combination of Appearance Adaptation with Adaptive Batch Normalisation 6.2.4 Final Comparison of Variants 6.2.5 Detailed Evaluation of Selected UDA Scenarios 6.3 Results of Experiment Set E3: Evaluation of Parameter Selection 6.4 Results of Experiment Set E4: Comparison to other Strategies and Methods 6.4.1 Experiment set E4.1: Comparison to other Strategies 6.4.2 Experiment Set E4.2: Comparison to other Methods 6.5 Results of Experiment Set E5: Evaluation of UDA for Deforestation Detection 7 Conclusions and Outlook 7.1 Conclusion 7.2 Outlook Bibliography Appendix , Sprache der Kurzfassungen: Englisch, Deutsch
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    Characteristics and benefits of differential Lunar Laser Ranging (2023)
    Hannover : Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover
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    Call number: S 99.0139(394)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 394
    Type of Medium: Series available for loan
    Pages: 105 Seiten , Illustrationen, Diagramme
    ISSN: 0174-1454
    Series Statement: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover Nr. 394
    Language: English
    Note: Dissertation, Gottfried Wilhelm Leibniz Universität Hannover, 2023 , Sprache der Zusammenfassungen: Englisch, Deutsch
    Location: Lower compact magazine
    Branch Library: GFZ Library
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    Lunar laser ranging : improved modelling and parameter estimation (2023)
    Hannover : Fachrichtung Geodäsie und Geoinformatik der Leibniz Unviersität Hannover
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    Details Availability
    Call number: S 99.0139(387)
    In: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover, Nr. 387
    Type of Medium: Series available for loan
    Pages: xii, 108 Seiten , Illustrationen, Diagramme
    ISBN: 978-3-7696-5315-1 , 9783769653151
    ISSN: 0174-1454
    Series Statement: Wissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Leibniz Universität Hannover Nr. 387
    Language: English
    Note: Contents 1 Introduction 2 Normal Points and LLR Analysis Description 2.1 Distribution of Normal Points 2.1.1 Observatories 2.1.2 Reflectors 2.1.3 Synodic Angle and Wavelength of Laser Signals 2.2 Uncertainty of Normal Points 2.3 LLR Analysis Description 3 Data Reduction and Parameter Estimation 3.1 Uncertainty of Estimated Parameters 3.1.1 Sensitivity Analysis 3.1.2 Validation by Resampling 3.2 Geocenter Motion 3.3 Loading 3.3.1 Atmospheric Loading 3.3.2 Non-Tidal Loading 4 Ephemeris Calculation 4.1 2-way Calculation 4.1.1 Calculated Ephemeris 4.1.2 LLR Residuals 4.1.3 Estimated Parameters 4.1.4 Correlations 4.2 Dynamical Model 4.2.1 DE440 Ephemeris based updates 4.2.2 Undistorted Total MOI of the Moon 4.3 Effect of Additional Asteroids 4.4 Comparison of Results: LUNAR vs INPOP and DE 5 Earth Rotation Parameters Estimation 5.1 A-priori Data 5.2 Selection of Nights 5.3 Uncertainty Estimation 5.4 Earth Rotation Phase Estimation 5.4.1 Estimated Values 5.4.2 Correlations 5.5 Terrestrial Pole Coordinates Estimation 5.5.1 Estimated Values 5.5.2 Correlations 6 Relativistic Tests with LLR 6.1 Equivalence of Active and Passive Gravitational Mass 6.1.1 Determination of the Lunar Angular Acceleration 6.1.2 Limit on Equivalence of Active and Passive Mass 7 Conclusions and Outlook 7.1 Conclusions 7.2 Outlook A List of Fitted Parameters B List of Biases List of Figures List of Tables List of Abbreviations Bibliography
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